Synthesis, Characterization and Chiral Recognition Ability of Optically Active Polyamides Obtained form L-Tartaric Acid and Various DiaminesJ. Journal of Functional Polymers, 1993, 6(3): 193-198.
Citation:
Synthesis, Characterization and Chiral Recognition Ability of Optically Active Polyamides Obtained form L-Tartaric Acid and Various DiaminesJ. Journal of Functional Polymers, 1993, 6(3): 193-198.
Synthesis, Characterization and Chiral Recognition Ability of Optically Active Polyamides Obtained form L-Tartaric Acid and Various DiaminesJ. Journal of Functional Polymers, 1993, 6(3): 193-198.
Citation:
Synthesis, Characterization and Chiral Recognition Ability of Optically Active Polyamides Obtained form L-Tartaric Acid and Various DiaminesJ. Journal of Functional Polymers, 1993, 6(3): 193-198.
Synthesis, Characterization and Chiral Recognition Ability of Optically Active Polyamides Obtained form L-Tartaric Acid and Various Diamines
Five new optically active polyamidcs were synthesized at high temperatures by the condensation of the salts from L-tartaric acid with diamincs. The influence of polymerization condition on the specific rotation was discussed. Based on the specific rotatio
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